A semiconductor packaging structure includes a die including a bond pad and a first metal layer structure disposed on the die, the first metal layer structure having a first width, the first metal layer structure including a first metal layer, the first metal layer electrically coupled to the bond pad. The semiconductor packaging structure also includes a first photosensitive material around sides of the first metal layer structure and a second metal layer structure disposed over the first metal layer structure and over a portion of the first photosensitive material, the second metal layer structure electrically coupled to the first metal layer structure, the second metal layer structure having a second width, where the second width is greater than the first width. Additionally, the semiconductor packaging structure includes a second photosensitive material around sides of the second metal layer structure.

A semiconductor package includes: a first semiconductor chip; a second semiconductor chip; and a bonding structure at an interface between the first and second semiconductor chips. The bonding structure includes: a first bonding insulating layer on the first semiconductor chip; a first connection pad in a first pad opening formed in the first bonding insulating layer, the first connection pad including a first pad layer, a first interface layer including a copper oxide, and a first capping layer; a second bonding insulating layer on the second semiconductor chip; and a second connection pad in a second pad opening formed in the second bonding insulating layer, the second connection pad including a second pad layer, a second interface layer including a copper oxide, and a second capping layer. The first and second capping layers include copper monocrystal layers having a (111) orientation.

Three-dimensional integrated circuit structures are disclosed. A three-dimensional integrated circuit structure includes a first die, a second die and a device-free die. The first die includes a first device. The second die includes a second device and is bonded to the first die. The device-free die is located aside the second die and is bonded to the first die. The device-free die includes a conductive feature electrically connected to the first die and the second die.

Three-dimensional integrated circuit structures are disclosed. A three-dimensional integrated circuit structure includes a first die, a second die and a device-free die. The first die includes a first device. The second die includes a second device and is bonded to the first die. The device-free die is located aside the second die and is bonded to the first die. The device-free die includes a conductive feature electrically connected to the first die and the second die.

A bonded assembly includes a first semiconductor die that includes first metallic bonding structures embedded within a first bonding-level dielectric layer, and a second semiconductor die that includes second metallic bonding structures embedded within a second bonding-level dielectric layer and bonded to the first metallic bonding structures by metal-to-metal bonding. One of the first metallic bonding structures a pad portion, and a via portion located between the pad portion and the first semiconductor device, the via portion having second tapered sidewalls.

A semiconductor device may include a semiconductor chip in an encapsulant. A first insulation layer may be disposed on the encapsulant and the semiconductor chip. A horizontal wiring and a primary pad may be disposed on the first insulation layer. A secondary pad may be disposed on the primary pad. A second insulation layer covering the horizontal wiring may be disposed on the first insulation layer. A solder ball may be disposed on the primary pad and the secondary pad. The primary pad may have substantially the same thickness as a thickness of the horizontal wiring.

A semiconductor device includes a first conductive structure. The semiconductor device includes a first dielectric structure. The semiconductor device includes a second conductive structure. The first dielectric structure is positioned between a first surface of the first conductive structure and a surface of the second conductive structure. The semiconductor device includes an etch stop layer overlaying the first conductive structure. The semiconductor device includes a first spacer structure overlaying the first dielectric structure. The semiconductor device includes a second dielectric structure overlaying the first spacer structure and the etch stop layer.

A semiconductor structure and a method of manufacturing thereof are provided. The semiconductor includes a semiconductor integrated circuit device and a redistribution layer structure. The semiconductor integrated circuit device has a top surface and an electrode on the top surface. The redistribution layer structure is formed on the top surface. The redistribution layer structure includes an oxide layer, a nitride layer, a dielectric layer, a groove and a through via. The oxide layer and the nitride layer are formed on the top surface. The dielectric layer is formed on the nitride layer. The groove is formed at a topside of the dielectric layer and overlaps the electrode. The through via is formed at a bottom of the groove and extends within the electrode through the dielectric layer, the nitride layer and the oxide layer. The through via and the groove are filled with a conductive material.

According to various embodiments, a contact pad structure may be provided, the contact pad structure may include: a dielectric layer structure; at least one contact pad being in physical contact with the dielectric layer structure; the at least one contact pad including a metal structure and a liner structure, wherein the liner structure is disposed between the metal structure of the at least one contact pad and the dielectric layer structure, and wherein a surface of the at least one contact pad is at least partially free from the liner structure, and a contact structure including an electrically conductive material; the contact structure completely covering at least the surface being at least partially free from the liner structure of the at least one contact pad, wherein the liner structure and the contact structure form a diffusion barrier for a material of the metal structure of the at least one contact pad.

A semiconductor structure and a method of manufacturing thereof are provided. The semiconductor includes a semiconductor integrated circuit device and a redistribution layer structure. The semiconductor integrated circuit device has a top surface and an electrode on the top surface. The redistribution layer structure is formed on the top surface. The redistribution layer structure includes an oxide layer, a nitride layer, a dielectric layer, a groove and a through via. The oxide layer and the nitride layer are formed on the top surface. The dielectric layer is formed on the nitride layer. The groove is formed at a topside of the dielectric layer and overlaps the electrode. The through via is formed at a bottom of the groove and extends within the electrode through the dielectric layer, the nitride layer and the oxide layer. The through via and the groove are filled with a conductive material.